Artificial intelligence (AI) and machine learning are increasingly being applied in the field of RNA biology. These methods are used to predict RNA structures, interactions with proteins and small ...

RNA molecules exhibit an astonishing diversity in structure, which is integral to their myriad cellular functions ranging from gene regulation to catalysis. Advances in experimental techniques and ...

Scientists at Université de Montréal's Institute for Research in Immunology and Cancer have developed a new database that ...

When RNA molecules are synthesized by cells — a critical process in the creation of proteins and other cellular functions — they typically undergo a series of “folding” events that determine their ...

Just as the human body relies on organs such as the heart or liver for essential functions, cells depend on their own tiny ...

A new biochemical method identifies RNA 3D structures and protein binding sites in cells. It reveals how RNA folding drives ...

A new method developed at Baylor College of Medicine and collaborating institutions allows researchers to better understand how RNA works. The method is a powerful strategy for identifying intricate ...

Apart from carrying the information to encode proteins in, RNA molecules can adopt intricate 2D and 3D structures. Specifically, the same RNA molecule can switch between ON and OFF structures, ...

Ribonucleic acid, commonly known as RNA, is involved in many biological functions, and some, including gene silencing, are utilized to cure diseases. RNA has recently gained attention as a promising ...

The chemical structure of uracil, showing its single-ring pyrimidine structure. Uracil forms hydrogen bonds with adenine in RNA, contributing to the molecule's structure and function. (Image: Public ...

RNA rewards companies that can integrate biology, data science, manufacturing, and clinical development into a single ...